Abstract

The article is devoted to the problem of protecting information from being read by an optoelectronic channel by studying the influence of atmospheric parameters on the spread of laser radiation. The paper considers key aspects of radiation attenuation due to scattering and absorption by air gases and aerosol particles. It is shown that the efficiency of the probing laser beam depends on extreme climatic conditions, and due to scattering and absorption, the power of the laser beam will decrease as it spreads through the atmosphere. Taking into account the peculiarities of the passage of a laser beam through the atmosphere and the influence of various types of interference on the probing signal, it is possible to predict its attenuation and blocking, namely, for reading confidential speech information, lasers with radiation located in the parts of the atmospheric spectrum occupied by wide windows of transparency should be taken for the appropriate weather conditions; to protect information from being read by an optoelectronic channel, it is necessary to use parameters of the external environment that prevent direct access of the laser beam to the object of information. The presented author's vision of research into the influence of the atmosphere on the spread of laser radiation will allow us to apply the results, ideas, and proposals summarized in this article to solve current problems in the field of information protection.

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